M01930 VGM064032A0W01 A02 2014-1-23 · Note(4): Setting of 380 cd/m2 : - Contrast setting : 0xE0 -...
Transcript of M01930 VGM064032A0W01 A02 2014-1-23 · Note(4): Setting of 380 cd/m2 : - Contrast setting : 0xE0 -...
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PRODUCT SPECIFICATION KPS-0757-D01
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Product Specification
Product Name: VGM064032A1W01
Product Code: M01930
Customer
Approved by Customer
Approved Date:
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PRODUCT SPECIFICATION KPS-0757-D01
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CONTENT
REVISION RECORD .................................................................................................................................................... 3
1 OVERVIEW .......................................................................................................................................................... 4
2 FEATURES ............................................................................................................................................................ 4
3 MECHANICAL DATA ......................................................................................................................................... 4
4 MECHANICAL DRAWING ................................................................................................................................ 5
5 MODULE INTERFACE ....................................................................................................................................... 6
6 FUNCTION BLOCK DIAGRAM ....................................................................................................................... 7
6.1 FUNCTION BLOCK DIAGRAM ............................................................................................................................... 7
6.2 PANEL LAYOUT DIAGRAM ................................................................................................................................... 7
7 ABSOLUTE MAXIMUM RATINGS .................................................................................................................. 8
8 ELECTRICAL CHARACTERISTICS ............................................................................................................... 8
8.1 DC ELECTRICAL CHARACTERISTICS ................................................................................................................... 8
8.2 ELECTRO-OPTICAL CHARACTERISTICS ................................................................................................................ 9
8.3 AC ELECTRICAL CHARACTERISTICS ................................................................................................................. 10
9 FUNCTIONAL SPECIFICATION AND APPLICATION CIRCUIT ............................................................ 11
9.1 POWER ON AND POWER OFF SEQUENCE WITH EXTERNAL VCC ...................................................................... 11
9.3 APPLICATION CIRCUIT ....................................................................................................................................... 13
9.4 DISPLAY CONTROL INSTRUCTION ...................................................................................................................... 15
9.5 RECOMMENDED SOFTWARE INITIALIZATION ..................................................................................................... 15
10 PACKAGE SPECIFICATION ........................................................................................................................... 16
11 RELIABILITY .................................................................................................................................................... 17
11.1 RELIABILITY TEST ............................................................................................................................................. 17
11.2 LIFETIME ........................................................................................................................................................... 17
11.3 FAILURE CHECK STANDARD .............................................................................................................................. 18
12 ILLUSTRATION OF OLED PRODUCT NAME ............................................................................................ 18
13 OUTGOING QUALITY CONTROL SPECIFICATIONS .............................................................................. 19
13.1 SAMPLING METHOD .......................................................................................................................................... 19
13.2 INSPECTION CONDITIONS .................................................................................................................................. 19
13.3 QUALITY ASSURANCE ZONES ............................................................................................................................ 19
13.4 INSPECTION STANDARD ..................................................................................................................................... 20
14 PRECAUTIONS FOR OPERATION AND STORAGE .................................................................................. 23
14.1 PRECAUTIONS FOR OPERATION ......................................................................................................................... 23
14.2 SOLDERING ....................................................................................................................................................... 23
14.3 PRECAUTIONS FOR STORAGE ............................................................................................................................. 23
14.4 WARRANTY PERIOD ........................................................................................................................................... 23
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PRODUCT SPECIFICATION KPS-0757-D01
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REVISION RECORD
REV. REVISION DESCRIPTION REV. DATE REMARK
D01 Initial Release 2014-4-11
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PRODUCT SPECIFICATION KPS-0757-D01
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1 Overview VGM064032A1W01 is a monochrome OLED display module with 64×32 dot matrix. The characteristics of this
display module are high brightness, self-emission, high contrast ratio, slim/thin outline, wide viewing angle, wide
temperature range, and low power consumption.
2 Features Display Color: White
Dot Matrix:64×32
Driver IC: SSD1306BZ
Interface: I²C
Wide range of operating temperature: -40℃ to 70℃
3 Mechanical Data
NO. ITEM SPECIFICATION UNIT
1 Dot Matrix 64(W)×32(H) -
2 Dot Size 0.155(W)×0.155(H) mm2
3 Dot Pitch 0.175(W)×0.175(H) mm2
4 Aperture Rate 78 %
5 Active Area 11.18 (W)×5.58 (H) mm2
6 Panel Size 14.5(W)×11.6(H) ×1.05(T) mm3
7 Module Size 14.5(W)×21.6(H) ×1.28(T) mm3
8 Diagonal A/A Size 0.49 inch
9 Module Weight 0.42±10% gram
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PRODUCT SPECIFICATION KPS-0757-D01
TEL:0755-8204 8740 FAX:0755-82933160 5 / 23
4 Mechanical Drawing
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5 Module Interface PIN NO. PIN NAME DESCRIPTION
1 C2P C1P/C1N – Pin for charge pump capacitor; Connect to each other with a capacitor. C2P/C2N – Pin for charge pump capacitor; Connect to each other with a capacitor.
2 C2N 3 C1P 4 C1N 5 VBAT Power supply for charge pump regulator circuit. Table 5.1 6 VBREF(NC) No Connection. 7 VSS This is a ground pin. 8 VDD Power supply pin for core logic operation.
9 RES# This pin is reset signal input. When the pin is low, initialization of the chip is executed. 10 SCL When I²C mode is selected,D2,D1 should be tied together and serve as
SDAout,SDAin in application and D0 is the serial clock input,SCL. 11 SDA
12 IREF This pin is segment current reference pin. A resistor should be connected between this pin and VSS.
13 VCOMH This pin is the input pin for the voltage output high level for COM signals. A capacitor should be connected between this pin and VSS.
14 VCC Power supply for panel driving voltage. This is also the most positive power voltage supply pin. When charge pump is enabled, a capacitor should be connected between this pin and VSS.
Table 5.1 Status VBAT VDD VCC
Enable charge pump Connect to external VBAT source
Connect to external VDD source
A capacitor should be connected between this pin and VSS
Disable charge pump Keep float Connect to externalVDD source
Connect to external VCC source
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6 Function Block Diagram 6.1 Function Block Diagram
IREFSDASCL
VCOMH
C1P
C2PC2N
VBATVBREF(NC)VSSVDDRES#
C1N
64x32OLEDPanel
C0-15
C32-47
VCC
S32-95
6.2 Panel Layout Diagram
COM&SEG LAYOUTCOM&SEG LAYOUT
CO32
CO32
COM47
COM47
COM0
COM0
COM15
COM15
SEG32
SEG32
SEG95
SEG95
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7 Absolute Maximum Ratings
ITEM SYMBOL MIN MAX UNIT REMARK
Supply Voltage VDD -0.3 4.0 V IC maximum rating
VBAT -0.3 5.0 V IC maximum rating
OLED Operating Voltage VCC 0 16 V IC maximum rating Operating Temp. Top -40 70 ℃ -
Storage Temp Tstg -40 85 ℃ -
Note (1): All of the voltages are on the basis of “VSS = 0V”.
Note (2): Permanent breakage of module may occur if the module is used beyond the maximum rating. The module
can be normal operated under the conditions according to Section 8 “Electrical Characteristics”.
Malfunctioning of the module may occur and the reliability of the module may deteriorate if the module is
used beyond the conditions.
8 Electrical Characteristics 8.1 DC Electrical Characteristics
ITEM SYMBOL TEST CONDITION MIN TYPE MAX UNIT
Logic Supply Voltage VDD 22±3°C, 55±15%R.H 1.65 2.8 3.3 V
OLED Driver Supply Voltage (Supplied Externally) VCC
22±3°C, 55±15%R.H 11.5 12 12.5
Supply Voltage for DC/DC VBAT 22±3°C, 55±15%R.H 3.3 3.7 4.2
High-level Input Voltage VIH - 0.8×VDD - - V
Low-level Input Voltage VIL - - - 0.2×VDD V
High-level Output Voltage VOH - 0.9×VDD - - V
Low-level Output Voltage VOL - - - 0.1×VDD V
Note : The VCC input must be kept in a stable value; ripple and noise are not allowed.
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8.2 Electro-optical Characteristics
ITEM SYMBOL TEST CONDITION MIN TYP MAX UNIT
Normal Mode Brightness (VCC Generated by Internal
DC/DC) Lbr All pixels ON(1) 105 130 - cd/m2
Normal Mode Brightness (VCC Supplied Externally) Lbr All pixels ON(2) 220 280 cd/m
2
Normal Mode Brightness (VCC Supplied Externally) Lbr All pixels ON(3) 260 330 cd/m
2
Normal Mode Brightness (VCC Supplied Externally) Lbr All pixels ON(4) 280 380 cd/m
2
ICC,Sleep mode Current ICC,SLEEP
VDD=1.65V~3.3V,VCC = 7V~15V Display OFF, No panel attached
- - 20 uA
IDD,Sleep mode Current IDD,SLEEP
VDD=1.65V~3.3V,VCC = 7V~15V Display OFF, No panel attached
- - 20 uA
Normal Mode Power Consumption (V CC Generated
by Internal DC/DC) Pt All pixels ON(1) 40.7 51.8 mW
Normal Mode Power Consumption (VCC Supplied
Externally) Pt All pixels ON(2) 75.6 90.72 mW
Normal Mode Power Consumption (VCC Supplied
Externally) Pt All pixels ON(3) 91.2 109.44 mW
Normal Mode Power Consumption (VCC Supplied
Externally) Pt All pixels ON(4) 98.4 118.08 mW
C.I.E(White) (x)
x,y(CIE1931) 0.26 0.30 0.34 -
(y) 0.29 0.33 0.37 - Dark Room Contrast CR - ≥2000:1 - - -
Response Time - - --- 10 - μs
View Angle - - ≥160 - - Degree
(A)Driving voltage : VCC:7.25V(VCC Supplied Externally) or VBAT:3.7V(VCC Generated by Internal DC/DC).
Note(1): Setting of 130 cd/m2 :
- Contrast setting : 0xCF
- Frame rate : 105Hz
- Duty setting : 1/32
(B)Under Vcc = 12V(VCC Supplied Externally).
Note(2): Setting of 280 cd/m2 :
- Contrast setting : 0x90
- Frame rate : 105Hz
- Duty setting : 1/32
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Note(3): Setting of 330 cd/m2 :
- Contrast setting : 0xC0
- Frame rate : 105Hz
- Duty setting : 1/32
Note(4): Setting of 380 cd/m2 :
- Contrast setting : 0xE0
- Frame rate : 105Hz
- Duty setting : 1/32
8.3 AC Electrical Characteristics I²Cnterface Timing Characteristics
(VDD - VSS = 1.65V to 3.3V, TA = 25°C)
I²C interface characteristics
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9 Functional Specification and Application Circuit 9.1 Power ON and Power OFF Sequence with External VCC
Power ON Sequence:
1. Power ON VDD
2. After VDD become stable, set RES# pin LOW (logic low) for at least 3us (t1 )(4) and then HIGH (logic high).
3. After set RES# pin LOW (logic low), wait for at least 3us (t2). Then Power ON VCC(1).
4. After VCC become stable, send command AFh for display ON. SEG/COM will be ON after 100ms (tAF).
Power OFF Sequence: 1. Send command AEh for display OFF.
2. Power OFF VCC(1) (2) (3).
3. Power OFF VDD after tOFF. (5) (Typical tOFF=100ms)
Note:
(1)Since an ESD protection circuit is connected between VDD and VCC, VCC becomes lower than VDD
whenever VDD is ON and VCC is OFF as shown in the dotted line of VCC in above figures.
(2) VCC should be kept float (disable) when it is OFF.
(3) Power Pins(VDD, VCC) can never be pulled to ground under any circumstance.
(4) The register values are reset after t1.
(5) VDD should not be Power OFF before VCC Power OFF.
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PRODUCT SPECIFICATION KPS-0757-D01
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9.2 Power ON and OFF sequence with Charge Pump Application Power ON sequence:
1. Power ON VDD
2. Wait for tON. Power ON VBAT.(1), (2) (where Minimum tON = 0ms)
3. After VBAT become stable, set RES# pin LOW (logic low) for at least 3us (t1) (3) and then HIGH (logic high).
4. After set RES# pin LOW (logic low), wait for at least 3us (t2). Then input commands with below
sequence:
a. 8Dh 14h for enabling charge pump
b. AFh for display ON
5. SEG/COM will be ON after 100ms (tAF).
Power OFF sequence:
1. Send command AEh for display OFF
2. Send command 8Dh 10h to disable charge pump
3. Power OFF VBAT after tOFF. (1), (2) (Typical tOFF =100ms)
4. Power OFF VDD after tOFF2. (where Minimum tOFF2 = 0ms (4) , Typical tOFF2=5ms)
Note:
(1)VBAT should be kept float (i.e. disable) when it is OFF.
(2) Power Pins (VDD , VBAT) can never be pulled to ground under any circumstance.
(3) The register values are reset after t1.
(4) VDD should not be Power OFF before VBAT Power OFF
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PRODUCT SPECIFICATION KPS-0757-D01
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9.3 Application Circuit 1) Application Example of M01930 with Internal Charge Pump and I²C mode.
GND
R1 C4 C6C3
01930
VBAT
VDDRES#SCLSDA
1234567891011121314
C2PC2NC1PC1NVBATVBREF(NC)VSSVDDRES#SCLSDAIREFVCOMHVCC
C1
C2
C5
VDD
R3R2
Pin connected to MCU interface: SCL, SDA, RES#
Under Internal DC/DC Mode, the Charge Pump Setting(8Dh) must be set as follow:
8Dh: Charge Pump Setting
14h; Enable Charge Pump
I2C Address:0x78
Recommended components C3,C5,C6: 4.7μF/16V.RoHS (Tantalum Capacitors)
C1,C2,C4: 1uF-0603-X7R±10%.RoHS
R1: 0603 1/10W +/-5% 390Kohm.RoHS
R2,R3: 0603 1/10W +/-5% 10Kohm.RoHS
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PRODUCT SPECIFICATION KPS-0757-D01
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2) Application Example of M01930 with External VCC and I²C mode.
C2
C2PC2NC1PC1NVBATVBREF(NC)VSSVDDRES#SCLSDAIREFVCOMHVCC
1234567891011121314
VDDRES#SCLSDA
01930
C3C1R1
GND
VCC
R2 R3
VDD
Pin connected to MCU interface: SCL, SDA, RES#
C1P, C1N, C2P, C2N,VBAT should be left open.
Under external VCC Mode, the Charge Pump Setting(8Dh) must be set as follow:
8Dh: Charge Pump Setting
10h:Disable Charge Pump
I2C Address:0x78
Recommended components C2,C3: 4.7μF/16V.RoHS (Tantalum Capacitors)
C1: 1uF-0603-X7R±10%.RoHS
R1: 0603 1/10W +/-5% 390Kohm.RoHS
R2,R3: 0603 1/10W +/-5% 10Kohm.RoHS
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PRODUCT SPECIFICATION KPS-0757-D01
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9.4 Display Control Instruction Refer to SSD1306BZ IC Specification.
9.5 Recommended Software Initialization In order to ensure the reliability and stability of the module, the module must initialized use the following
code, Malfunctioning of the module may occur and the reliability of the module may deteriorate if the module is used beyond the initialize code.
void Init_IC()
{
Write_Command(0xAE); //Set Display Off
Write_Command(0xd5); //display divide ratio/osc. freq. mode
Write_Command(0xd1); //105Hz
Write_Command(0xA8); //Multiplex ration mode:31
Write_Command(0x1F); //32
Write_Command(0xD3); //Set Display Offset
Write_Command(0x00);
Write_Command(0x40); //Set Display Start Line
Write_Command(0x8D); //Set charge pump
Write_Command(0x14); //For enabling charge pump
Write_Command(0xA1); //Segment Remap
Write_Command(0xC8); //Set COM Output Scan Direction
Write_Command(0xDA); //Common pads hardware: alternative
Write_Command(0x12);
Write_Command(0x81); //Contrast control
Write_Command(0xCF);
Write_Command(0xD9); //Set pre-charge period
Write_Command(0xF1);
Write_Command(0xDB); //VCOM deselect level mode
Write_Command(0x00); //Set Vcomh=0.65*Vcc
Write_Command(0xA4); //Set Entire Display On/Off
Write_Command(0xA6); //Set Normal Display
Clear_Screen();
Write_Command(0xAF); //Set Display On
}
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PRODUCT SPECIFICATION KPS-0757-D01
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10 Package Specification
Detail A
A
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:128
*64
0.96"
Dots:1
28*64
0.96"
Dots:1
28*64
0.96"
Dots:1
28*64
0.96"
Dots:1
28*64
0.96"
Dots:1
28*64
0.96"
Dots:1
28*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
Dots:128*64
0.96"
vacuum bag
After tray be packaged,
wrap the package in a
bubble bag and seal with
scoth tape.
Dots:128*32
1.04"
L390*W290*L120 mm
L410*W310*L272 mm
fix trays with tape
( 3 )
normal
1
( 2 )
180°
revers
2
00930-MT6-A
( 1 )Tray Type:
TRAY
Packing Process(1)~(9)
order 1、
2、
1、
2
*5
small carton package
( 9 )
2 small cartons in 1 big carton
Package finished
( 8 )
( 4 )
( 7 )
( 6 )
( 5 )
R
ROHS MARK
ROHS MARK
ROHS MARK
NOTE:1、
The inner carton and master carton must be sealed with
2、Fill up the gap with tray.
3、
If the customer has special needs with the RoHS making,
the inner carton and master carton need adhesive new RoHS
adhesive tape.
marking at .
1728 pcs of 1 small carton
1 tray contain 72 pcs
24 contained trays, 1 empty tray
of desiccant into the
the tray and add 5 bags
Use vaccum bag to package
48 contained trays, 2 empty
tra
ys,Package quantity products:
3456 pcs of 1 big carton
Con
trol
led Se
al
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PRODUCT SPECIFICATION KPS-0757-D01
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11 Reliability 11.1 Reliability Test
NO. ITEM CONDITION QUANTITY
1 High Temperature (Non-operation) 85℃,240hrs 4
2 Low Temperature (Non-operation) -40℃,240hrs 4
3 High Temperature (Operation) 70℃,240hrs 4
4 Low Temperature (Operation) -40℃,240hrs 4
5 High Temperature / High Humidity (Operation)
60℃,90%RH,240hrs 4
6 Thermal shock (Non-operation) -40℃~85℃(-40℃/30min;transit/3min;85℃/30min;transit/3min) 1cycle: 66min,30cycles 4
7 Vibration
Frequency: 5~50Hz,0.5G Scan rate: 1 oct/min Time: 2 hrs/axis Test axis: X,Y, Z
1 Carton
8 Drop Height: 100 cm Sequence: 1 angle, 3 edges and 6 faces 1 Carton
Test and measurement conditions 1. All measurements shall not be started until the specimens attain to temperature stability, the stable time is at
least 15 minutes.
2. The degradation of polarizer is ignored for item 5.
3.The tolerance of temperature is ±3℃, and the tolerance of relative humidity is ±5%.
Evaluation criteria 1. The function test is OK.
2. No observable defects.
3. Luminance:≥50% of initial value.
4. Current consumption: within ± 50% of initial value.
11.2 Lifetime End of lifetime is specified as 50% of initial brightness and the test pattern at operating condition is 50%
alternating checkerboard.
ITEM MIN MAX UNIT CONDITION
Operation Life Time 13,000 - hrs 130 cd/m2,50% Checkerboard
Operation Life Time 8,600 - hrs 380 cd/m2,50% Checkerboard
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11.3 Failure Check Standard After the completion of the described reliability test, the samples were left at room temperature for 2 hrs prior
to conducting the failure test at 22±3°C; 55±15% RH.
12 Illustration of OLED Product Name □ □ □ □□□□□□ □□ □ □□
Company :
V—Visionox
Display Type :
G—graphic
C—character
S—segment
I—Icon
M—mixed
Product Type :
P—panel
M—module
Display Format :
Graphic—columns and rows
Character—characters and line number
Segment—segment number
Icon—pixel number
Panel Flow No. :
A0~A9, B0~B9…Z0~Z9
Display Color :
R—red
G—green
B—blue
Y—yellow
W—white
A—area color
F—full color
Flow No. :
01~99
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PRODUCT SPECIFICATION KPS-0757-D01
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13 Outgoing Quality Control Specifications
13.1 Sampling Method (1) GB/T 2828.1-2003/ISO2859-1:1999, inspection level , normal inspection, single sample inspectionⅡ
(2) AQL: Major 0.65; Minor 1.0
13.2 Inspection Conditions
The environmental conditions for test and measurement are performed as follows.
Temperature: 22±3°C
Humidity: 55±15%R.H
Fluorescent Lamp: 30W
Distance between the Panel & Lamp: ≥50cm
Distance between the Panel & Eyes: ≥30cm
Viewing angle from the vertical in each direction: ≤45°
(See the sketch below)
≥30cm≥50cm≤45°
Panel
eyes
13.3 Quality Assurance Zones
Zone C: Cap Area
Zone B: Viewing Area
Zone A: Active Area PANEL
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PRODUCT SPECIFICATION KPS-0757-D01
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13.4 Inspection Standard Definition of Φ&L&W (Unit: mm)
. Appearance DefectsⅠ
NO. ITEM CRITERIA CLASSIFICATION
1 Polarizer Black or White spot, Dirty spot, Foreign matter, Dent on the polarizer
Average Diameter(mm)
Acceptable Number Zone A,B Zone C
Φ≤0.15 Ignore Ignore 0.150.30 0
Minor
2 Scratch/line on the glass/Polarizer
Width (mm)
Length (mm)
Acceptable Number Zone A,B Zone C
W≤0.03 --- Ignore Ignore 0.030.08 --- 0
Minor
3 Polarizer Bubble Average Diameter
(mm) Acceptable Number
Zone A,B Zone C Φ>0.5 0
Ignore 0.2
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6 Glass Crack
Major
7 Corner Chip
Minor
8 Corner Chip on Cap Glass
Minor
9 Chip on Contact Pad
Minor
10 Chip on Face of Display
Minor
11 Chip on Cap Glass
Minor
12 Stain on Surface Stain removable by soft cloth or air blow is acceptable. Minor 13 TCP/FPC Damage (1) Crack, deep scratch, deep hole and deep pressure mark on
the TCP/FPC are not acceptable. (2) Terminal lead twisted or broken is not allowable. (3) Copper exposed is not allowed by naked eye inspection.
Minor
14 Dimension Unconformity Checking by mechanical drawing.
Major
t= Glass thickness Accept a≤3.0mm or b≤0.8mm, c≤t (on the contact pin) a≤3.0mm or b≤1.5mm, c≤t (outside of the contact pin)
t= Glass thickness
Accept
a≤1.5mm or b≤1.5mm, c≤t
t= Glass thickness
Accept
a≤2.0mm or b≤2.0mm, c≤t
t= Glass thickness
Accept
a≤1.5mm or b≤1.5mm, c≤t
t= Glass thickness
Accept
a≤3.0mm or b≤3.0mm, c≤t/2
a≤1.5mm or b≤1.5mm, t/2≤c≤t
Propagation crack is not acceptable.
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PRODUCT SPECIFICATION KPS-0757-D01
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. Displaying DefectsⅡ
NO. ITEM CRITERIA CLASSIFICATION
1 Black/White spot Dirty spot
Foreign matter
Average Diameter (mm)
Pieces Permitted Zone A,B Zone C
Φ≤0.10 Ignore Ignore 0.100.20 0
Minor
2 No Display Not allowable. Major 3 Irregular Display Not allowable. Major
4 Missing Line (row or column) Not allowable. Major
5 Short Not allowable. Major 6 Flicker Not allowable. Major 7 Abnormal Color Refer to the SPEC. Major 8 Luminance NG Refer to the SPEC. Major 9 Over Current Refer to the SPEC. Major
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14 Precautions for operation and Storage 14.1 Precautions for Operation
(1) Since OLED panel is made of glass, do not apply any mechanical shock or impact or excessive force to it when installing the OLED module. Any strong mechanical impact due to falling dropping etc. may cause damage (breakage or cracking).
(2) The polarizer on the OLED surface is made of soft material and is easily scratched. Please take most care when handing. When the surface of the polarizer of OLED Module is contaminated, please wipe it off gently by using moisten soft cloth with isopropyl alcohol, do not use water, ketone or aromatics. If there is saliva or water on the OLED surface, please wipe it off immediately.
(3) When handling OLED module, please be sure that the body and the tools are properly grounded. And do not touch I/O pins with bare hands or contaminate I/O pins, it will cause disconnection or defective insulation of terminals.
(4) Do not attempt to disassemble or process the OLED module. (5) OLED module should be used under recommended operating conditions shown in the specification. Since
the higher voltage leads to the shorter lifetime, be sure to use the specified operating voltage. (6) Foggy dew, moisture condensation or water droplets deposited on surface and contact terminals will cause
polarizer stain or damage, the deteriorated display quality and electrochemical reaction then leads to shorter life time and permanent damage to the module probably. Please pay attention to the environmental temperature and humidity.
(7) An afterimage is created by the difference in brightness between unused dot and the fixed dot, according to the decrease of brightness of the emitting time. Therefore, to avoid having an afterimage, the full set should be thoroughly used instead of using a fixed dot. When the fixed dot emits, an afterimage can be created.
(8) Flicker could be come out at full on display. And it disappears when frame frequency increase, but brightness decreases too.
14.2 Soldering (1) Soldering should be performed only on the I/O terminals. (2) Use soldering irons with proper grounding and no leakage. (3) Iron: no higher than 300℃ and 3~4 sec during soldering.
14.3 Precautions for Storage (1) Please store OLED module in a dark place. Avoid exposure to sunlight, the light of fluorescent lamp or any
ultraviolet ray. (2) Keep the environment temperature between 10℃ and 35℃ and the relative humidity less than 60%. Avoid
high temperature and high humidity. (3) Keep the OLED modules stored in the container when shipped from supplier before using them is
recommended. (4) Do not leave any article on the OLED module surface for an extended period of time.
14.4 Warranty period Visionox warrants for a period of 12 months from the shipping date when stored or used under normal condition.